Study of Three Methods for Measuring the Mechanical Effects of Laboratory Lightning Strikes

Jinhao Wu; Ruoyu Han; Jingran Li; Yuliang Ma; Xinxuan Xian; Jie Bai; Ting Li; Xi Chen

doi:10.1007/978-981-96-1864-4_54

Study of Three Methods for Measuring the Mechanical Effects of Laboratory Lightning Strikes

Jinhao Wu, Ruoyu Han^*, Jingran Li, Yuliang Ma, Xinxuan Xian, Jie Bai, Ting Li, Xi Chen

^*Corresponding author for this work

School of Mechatronical Engineering

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

Abstract

Lightning is a long-distance gas discharge process that occurs in atmosphere, and the direct force and thermal load impact accompanying lightning strike aircraft is one of the main causes of many lightning strike accidents. As the development of aircraft shell from metal material to lightweight composite material, lightning strikes can cause extra damage to lightweight material aircraft shell. The laboratory lightning strike test is essential for assessing the effectiveness of lighshows that after the gap breakdowntning strike protection. This paper carried out a study on three methods for measuring the mechanical load of laboratory lightning strikes. In the experiment, a pulsed-power source and a 6-μF pulse capacitor provide a high-power and microsecond timescale pulsed current to the load. The range of charging voltages involved in the experiment ranged from 9 kV to 25.8 kV. Two different load structures are established, which are essentially rod-plate loads, and three test methods of mechanical effects are designed under 40-kA-level pulsed current. Experimental results indicate that three measurement methods can effectively characterize the mechanical effects of laboratory lightning strikes. In these methods, the maximum impulse measured by the metal sheets upward is 3.08 kg·m/s, the force measured by the piezoelectric sensor can reach 850 N, and the single pendulum motion obtained the maximum impulse which is 0.0145 kg·m/s.

Original language	English
Title of host publication	The Proceedings of 2024 International Conference of Electrical, Electronic and Networked Energy Systems
Editors	Aimin Sha, Zhigang Liu, Xiaojun Wang, Qian Xiao, Yiming Zang, Longfei Tang
Publisher	Springer Science and Business Media Deutschland GmbH
Pages	489-495
Number of pages	7
ISBN (Print)	9789819618637
DOIs	https://doi.org/10.1007/978-981-96-1864-4_54
Publication status	Published - 2025
Event	International Conference of Electrical, Electronic and Networked Energy Systems, EENES 2024 - Xi'an, China Duration: 18 Oct 2024 → 20 Oct 2024

Publication series

Name	Lecture Notes in Electrical Engineering
Volume	1331 LNEE
ISSN (Print)	1876-1100
ISSN (Electronic)	1876-1119

Conference

Conference	International Conference of Electrical, Electronic and Networked Energy Systems, EENES 2024
Country/Territory	China
City	Xi'an
Period	18/10/24 → 20/10/24

Keywords

Gas Discharge
Lightning damage
Mechanical Effect
Pulsed Current

Access to Document

10.1007/978-981-96-1864-4_54

Cite this

Wu, J., Han, R., Li, J., Ma, Y., Xian, X., Bai, J., Li, T., & Chen, X. (2025). Study of Three Methods for Measuring the Mechanical Effects of Laboratory Lightning Strikes. In A. Sha, Z. Liu, X. Wang, Q. Xiao, Y. Zang, & L. Tang (Eds.), The Proceedings of 2024 International Conference of Electrical, Electronic and Networked Energy Systems (pp. 489-495). (Lecture Notes in Electrical Engineering; Vol. 1331 LNEE). Springer Science and Business Media Deutschland GmbH. https://doi.org/10.1007/978-981-96-1864-4_54

Wu, Jinhao ; Han, Ruoyu ; Li, Jingran et al. / Study of Three Methods for Measuring the Mechanical Effects of Laboratory Lightning Strikes. The Proceedings of 2024 International Conference of Electrical, Electronic and Networked Energy Systems. editor / Aimin Sha ; Zhigang Liu ; Xiaojun Wang ; Qian Xiao ; Yiming Zang ; Longfei Tang. Springer Science and Business Media Deutschland GmbH, 2025. pp. 489-495 (Lecture Notes in Electrical Engineering).

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title = "Study of Three Methods for Measuring the Mechanical Effects of Laboratory Lightning Strikes",

abstract = "Lightning is a long-distance gas discharge process that occurs in atmosphere, and the direct force and thermal load impact accompanying lightning strike aircraft is one of the main causes of many lightning strike accidents. As the development of aircraft shell from metal material to lightweight composite material, lightning strikes can cause extra damage to lightweight material aircraft shell. The laboratory lightning strike test is essential for assessing the effectiveness of lighshows that after the gap breakdowntning strike protection. This paper carried out a study on three methods for measuring the mechanical load of laboratory lightning strikes. In the experiment, a pulsed-power source and a 6-μF pulse capacitor provide a high-power and microsecond timescale pulsed current to the load. The range of charging voltages involved in the experiment ranged from 9 kV to 25.8 kV. Two different load structures are established, which are essentially rod-plate loads, and three test methods of mechanical effects are designed under 40-kA-level pulsed current. Experimental results indicate that three measurement methods can effectively characterize the mechanical effects of laboratory lightning strikes. In these methods, the maximum impulse measured by the metal sheets upward is 3.08 kg·m/s, the force measured by the piezoelectric sensor can reach 850 N, and the single pendulum motion obtained the maximum impulse which is 0.0145 kg·m/s.",

keywords = "Gas Discharge, Lightning damage, Mechanical Effect, Pulsed Current",

author = "Jinhao Wu and Ruoyu Han and Jingran Li and Yuliang Ma and Xinxuan Xian and Jie Bai and Ting Li and Xi Chen",

note = "Publisher Copyright: {\textcopyright} Beijing Paike Culture Commu. Co., Ltd. 2025.; International Conference of Electrical, Electronic and Networked Energy Systems, EENES 2024 ; Conference date: 18-10-2024 Through 20-10-2024",

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doi = "10.1007/978-981-96-1864-4_54",

language = "English",

isbn = "9789819618637",

series = "Lecture Notes in Electrical Engineering",

publisher = "Springer Science and Business Media Deutschland GmbH",

pages = "489--495",

editor = "Aimin Sha and Zhigang Liu and Xiaojun Wang and Qian Xiao and Yiming Zang and Longfei Tang",

booktitle = "The Proceedings of 2024 International Conference of Electrical, Electronic and Networked Energy Systems",

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Wu, J, Han, R, Li, J, Ma, Y, Xian, X, Bai, J, Li, T & Chen, X 2025, Study of Three Methods for Measuring the Mechanical Effects of Laboratory Lightning Strikes. in A Sha, Z Liu, X Wang, Q Xiao, Y Zang & L Tang (eds), The Proceedings of 2024 International Conference of Electrical, Electronic and Networked Energy Systems. Lecture Notes in Electrical Engineering, vol. 1331 LNEE, Springer Science and Business Media Deutschland GmbH, pp. 489-495, International Conference of Electrical, Electronic and Networked Energy Systems, EENES 2024, Xi'an, China, 18/10/24. https://doi.org/10.1007/978-981-96-1864-4_54

Study of Three Methods for Measuring the Mechanical Effects of Laboratory Lightning Strikes. / Wu, Jinhao; Han, Ruoyu; Li, Jingran et al.
The Proceedings of 2024 International Conference of Electrical, Electronic and Networked Energy Systems. ed. / Aimin Sha; Zhigang Liu; Xiaojun Wang; Qian Xiao; Yiming Zang; Longfei Tang. Springer Science and Business Media Deutschland GmbH, 2025. p. 489-495 (Lecture Notes in Electrical Engineering; Vol. 1331 LNEE).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

TY - GEN

T1 - Study of Three Methods for Measuring the Mechanical Effects of Laboratory Lightning Strikes

AU - Wu, Jinhao

AU - Han, Ruoyu

AU - Li, Jingran

AU - Ma, Yuliang

AU - Xian, Xinxuan

AU - Bai, Jie

AU - Li, Ting

AU - Chen, Xi

N1 - Publisher Copyright: © Beijing Paike Culture Commu. Co., Ltd. 2025.

PY - 2025

Y1 - 2025

N2 - Lightning is a long-distance gas discharge process that occurs in atmosphere, and the direct force and thermal load impact accompanying lightning strike aircraft is one of the main causes of many lightning strike accidents. As the development of aircraft shell from metal material to lightweight composite material, lightning strikes can cause extra damage to lightweight material aircraft shell. The laboratory lightning strike test is essential for assessing the effectiveness of lighshows that after the gap breakdowntning strike protection. This paper carried out a study on three methods for measuring the mechanical load of laboratory lightning strikes. In the experiment, a pulsed-power source and a 6-μF pulse capacitor provide a high-power and microsecond timescale pulsed current to the load. The range of charging voltages involved in the experiment ranged from 9 kV to 25.8 kV. Two different load structures are established, which are essentially rod-plate loads, and three test methods of mechanical effects are designed under 40-kA-level pulsed current. Experimental results indicate that three measurement methods can effectively characterize the mechanical effects of laboratory lightning strikes. In these methods, the maximum impulse measured by the metal sheets upward is 3.08 kg·m/s, the force measured by the piezoelectric sensor can reach 850 N, and the single pendulum motion obtained the maximum impulse which is 0.0145 kg·m/s.

AB - Lightning is a long-distance gas discharge process that occurs in atmosphere, and the direct force and thermal load impact accompanying lightning strike aircraft is one of the main causes of many lightning strike accidents. As the development of aircraft shell from metal material to lightweight composite material, lightning strikes can cause extra damage to lightweight material aircraft shell. The laboratory lightning strike test is essential for assessing the effectiveness of lighshows that after the gap breakdowntning strike protection. This paper carried out a study on three methods for measuring the mechanical load of laboratory lightning strikes. In the experiment, a pulsed-power source and a 6-μF pulse capacitor provide a high-power and microsecond timescale pulsed current to the load. The range of charging voltages involved in the experiment ranged from 9 kV to 25.8 kV. Two different load structures are established, which are essentially rod-plate loads, and three test methods of mechanical effects are designed under 40-kA-level pulsed current. Experimental results indicate that three measurement methods can effectively characterize the mechanical effects of laboratory lightning strikes. In these methods, the maximum impulse measured by the metal sheets upward is 3.08 kg·m/s, the force measured by the piezoelectric sensor can reach 850 N, and the single pendulum motion obtained the maximum impulse which is 0.0145 kg·m/s.

KW - Gas Discharge

KW - Lightning damage

KW - Mechanical Effect

KW - Pulsed Current

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U2 - 10.1007/978-981-96-1864-4_54

DO - 10.1007/978-981-96-1864-4_54

M3 - Conference contribution

AN - SCOPUS:86000190057

SN - 9789819618637

T3 - Lecture Notes in Electrical Engineering

SP - 489

EP - 495

BT - The Proceedings of 2024 International Conference of Electrical, Electronic and Networked Energy Systems

A2 - Sha, Aimin

A2 - Liu, Zhigang

A2 - Wang, Xiaojun

A2 - Xiao, Qian

A2 - Zang, Yiming

A2 - Tang, Longfei

PB - Springer Science and Business Media Deutschland GmbH

T2 - International Conference of Electrical, Electronic and Networked Energy Systems, EENES 2024

Y2 - 18 October 2024 through 20 October 2024

ER -

Wu J, Han R, Li J, Ma Y, Xian X, Bai J et al. Study of Three Methods for Measuring the Mechanical Effects of Laboratory Lightning Strikes. In Sha A, Liu Z, Wang X, Xiao Q, Zang Y, Tang L, editors, The Proceedings of 2024 International Conference of Electrical, Electronic and Networked Energy Systems. Springer Science and Business Media Deutschland GmbH. 2025. p. 489-495. (Lecture Notes in Electrical Engineering). doi: 10.1007/978-981-96-1864-4_54

Study of Three Methods for Measuring the Mechanical Effects of Laboratory Lightning Strikes

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